128 lines
4.1 KiB
Python
128 lines
4.1 KiB
Python
# import the necessary packages
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from tensorflow.keras.applications.mobilenet_v2 import preprocess_input
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from tensorflow.keras.preprocessing.image import img_to_array
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from tensorflow.keras.models import load_model
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from imutils.video import VideoStream
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import numpy as np
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import imutils
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import time
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import cv2
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import os
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def detect_and_predict_mask(frame, faceNet, maskNet):
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# grab the dimensions of the frame and then construct a blob
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# from it
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(h, w) = frame.shape[:2]
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blob = cv2.dnn.blobFromImage(frame, 1.0, (224, 224),
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(104.0, 177.0, 123.0))
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# pass the blob through the network and obtain the face detections
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faceNet.setInput(blob)
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detections = faceNet.forward()
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print(detections.shape)
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# initialize our list of faces, their corresponding locations,
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# and the list of predictions from our face mask network
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faces = []
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locs = []
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preds = []
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# loop over the detections
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for i in range(0, detections.shape[2]):
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# extract the confidence (i.e., probability) associated with
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# the detection
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confidence = detections[0, 0, i, 2]
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# filter out weak detections by ensuring the confidence is
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# greater than the minimum confidence
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if confidence > 0.5:
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# compute the (x, y)-coordinates of the bounding box for
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# the object
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box = detections[0, 0, i, 3:7] * np.array([w, h, w, h])
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(startX, startY, endX, endY) = box.astype("int")
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# ensure the bounding boxes fall within the dimensions of
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# the frame
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(startX, startY) = (max(0, startX), max(0, startY))
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(endX, endY) = (min(w - 1, endX), min(h - 1, endY))
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# extract the face ROI, convert it from BGR to RGB channel
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# ordering, resize it to 224x224, and preprocess it
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face = frame[startY:endY, startX:endX]
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face = cv2.cvtColor(face, cv2.COLOR_BGR2RGB)
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face = cv2.resize(face, (224, 224))
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face = img_to_array(face)
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face = preprocess_input(face)
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# add the face and bounding boxes to their respective
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# lists
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faces.append(face)
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locs.append((startX, startY, endX, endY))
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# only make a predictions if at least one face was detected
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if len(faces) > 0:
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# for faster inference we'll make batch predictions on *all*
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# faces at the same time rather than one-by-one predictions
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# in the above `for` loop
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faces = np.array(faces, dtype="float32")
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preds = maskNet.predict(faces, batch_size=32)
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# return a 2-tuple of the face locations and their corresponding
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# locations
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return (locs, preds)
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# load our serialized face detector model from disk
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prototxtPath = r"face_detector\deploy.prototxt"
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weightsPath = r"face_detector\res10_300x300_ssd_iter_140000.caffemodel"
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faceNet = cv2.dnn.readNet(prototxtPath, weightsPath)
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# load the face mask detector model from disk
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maskNet = load_model("mask_detector.model")
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# initialize the video stream
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print("[INFO] starting video stream...")
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vs = VideoStream(src=0).start()
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# loop over the frames from the video stream
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while True:
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# grab the frame from the threaded video stream and resize it
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# to have a maximum width of 400 pixels
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frame = vs.read()
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frame = imutils.resize(frame, width=400)
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# detect faces in the frame and determine if they are wearing a
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# face mask or not
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(locs, preds) = detect_and_predict_mask(frame, faceNet, maskNet)
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# loop over the detected face locations and their corresponding
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# locations
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for (box, pred) in zip(locs, preds):
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# unpack the bounding box and predictions
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(startX, startY, endX, endY) = box
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(mask, withoutMask) = pred
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# determine the class label and color we'll use to draw
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# the bounding box and text
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label = "Mask" if mask > withoutMask else "No Mask"
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color = (0, 255, 0) if label == "Mask" else (0, 0, 255)
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# include the probability in the label
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label = "{}: {:.2f}%".format(label, max(mask, withoutMask) * 100)
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# display the label and bounding box rectangle on the output
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# frame
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cv2.putText(frame, label, (startX, startY - 10),
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cv2.FONT_HERSHEY_SIMPLEX, 0.45, color, 2)
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cv2.rectangle(frame, (startX, startY), (endX, endY), color, 2)
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# show the output frame
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cv2.imshow("Frame", frame)
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key = cv2.waitKey(1) & 0xFF
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# if the `q` key was pressed, break from the loop
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if key == ord("q"):
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break
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# do a bit of cleanup
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cv2.destroyAllWindows()
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vs.stop() |